CN210734546U

CN210734546U - Liquid packaging bag filling and sealing machine

Info

Publication number: CN210734546U
Application number: CN201921443150.4U
Authority: CN
Inventors: 全巍巍; 周宣杨; 陈修雷
Original assignee: Wenzhou Zhonghuan Machinery Equipment Co ltd
Current assignee: Wenzhou Zhonghuan Intelligent Machinery Co ltd
Priority date: 2019-09-02
Filing date: 2019-09-02
Publication date: 2020-06-12
Anticipated expiration: 2029-09-02

Abstract

The utility model discloses automatic equipment for packing technical field refers in particular to a liquid packaging bag filling capper. Including the frame, upper end one side of frame is equipped with draw gear, and one side of draw gear is equipped with vertical closing device, and vertical closing device's lower extreme is equipped with horizontal closing device, impressed watermark identification means in proper order, easily tears a forming device and shearing mechanism, equidistant distribution each other of vertical closing device, horizontal closing device and impressed watermark identification means is in the frame. The filling and sealing machine has high production efficiency, and can realize full-automatic production and processing of liquid packaging bags.

Description

Liquid packaging bag filling and sealing machine

Technical Field

The utility model discloses automatic equipment for packing technical field refers in particular to a liquid packaging bag filling capper.

Background

In daily life, a packing bag, which is in a square shape and stores powder or liquid such as shampoo inside, is often seen.

The packaging bag generally comprises two films, wherein the two films are used for sealing two side edges and a lower bottom edge firstly, then required liquid or powder is filled into a formed bag opening through a filling mechanism, after filling is completed, the upper top edge of the bag opening is sealed, embossing marking is performed after sealing is completed, and finally forming of an easy-to-tear opening and cutting of the packaging bag are performed.

Because a plurality of steps exist in the production link of the packaging bag, and the relevance between each step is relatively strong, in order to avoid errors in the production link, the situation that each link is relatively independent exists in the existing production mode, namely, the next production link is started after the previous production link is finished.

Therefore, a fully automatic production device which has a compact structure and can be closely connected with each other is not available for the packaging bags.

Disclosure of Invention

The utility model aims at the above problem, a compact structure, liquid packaging bag filling capper that production efficiency is high is provided.

The purpose of the utility model is realized like this:

the utility model provides a liquid packaging bag filling capper, includes the frame, and upper end one side of frame is equipped with draw gear, and one side of draw gear is equipped with vertical closing device, and vertical closing device's lower extreme is equipped with horizontal closing device, impressed watermark identification means in proper order, easily tears a forming device and shearing mechanism, equidistant distribution each other of vertical closing device, horizontal closing device and impressed watermark identification means is in the frame.

Furthermore, the longitudinal sealing device comprises a first holding frame arranged on the rack, a first longitudinal sealing wheel fixing seat and a second longitudinal sealing wheel fixing seat are arranged on two sides of the first holding frame, a driving longitudinal sealing wheel shaft and a driven longitudinal sealing wheel shaft are respectively arranged on the first longitudinal sealing wheel fixing seat and the second longitudinal sealing wheel fixing seat, a first longitudinal sealing wheel and a second longitudinal sealing wheel are respectively fixed on the driving longitudinal sealing wheel shaft and the driven longitudinal sealing wheel shaft, the position of the second longitudinal sealing wheel is adjustable relative to the first longitudinal sealing wheel, the first longitudinal sealing wheel and the first longitudinal sealing wheel are pressed against each other, the second longitudinal sealing wheel and the second longitudinal sealing wheel are pressed against each other, the longitudinal sealing device further comprises a longitudinal sealing driving mechanism, the longitudinal sealing driving mechanism drives the driving longitudinal sealing wheel shaft to rotate so as to drive the driven longitudinal sealing wheel shaft to rotate, and heating rods are respectively arranged in the driving longitudinal sealing wheel shaft and the driven longitudinal sealing wheel shaft.

Further, the transverse sealing device comprises a second retainer arranged on the frame, a first transverse sealing wheel fixing seat and a second transverse sealing wheel fixing seat are arranged on two sides of the second retainer, a driving transverse sealing wheel shaft and a driven transverse sealing wheel shaft are respectively arranged on the first transverse sealing wheel fixing seat and the second transverse sealing wheel fixing seat, transverse sealing pressure rods which are arranged at equal intervals are respectively arranged on the driving transverse sealing wheel shaft and the driven transverse sealing wheel shaft, when the driving transverse sealing wheel shaft and the driven transverse sealing wheel shaft rotate, the transverse sealing pressure rods arranged on the driving transverse sealing wheel shaft and the transverse sealing pressure rods arranged on the driven transverse sealing wheel shaft are mutually closed and extruded, the transverse sealing device further comprises a transverse sealing driving mechanism and a filling mechanism, the transverse sealing driving mechanism drives the driving transverse sealing wheel shaft to rotate so as to drive the driven transverse sealing wheel shaft to rotate, and the driving transverse sealing wheel shaft and the driven transverse sealing wheel shaft are both provided with heating rods, the filling mechanism extends into the second retainer and is filled with liquid at intervals within a set time period.

Furthermore, the embossing mark device comprises a third retainer arranged on the frame, a first embossing mark fixing seat and a second embossing mark fixing seat are arranged on two sides of the third retainer, the first embossing mark fixing seat and the second embossing mark fixing seat are respectively provided with a driving embossing mark wheel shaft and a driven embossing mark wheel shaft, embossing mark pressing rods which are arranged at equal intervals are arranged on the driving embossing mark wheel shaft and the driven embossing mark wheel shaft, when the driving embossing identification wheel shaft and the driven embossing identification wheel shaft rotate, the embossing identification pressure lever positioned on the driving embossing identification wheel shaft and the embossing identification pressure lever positioned on the driven embossing identification wheel shaft are mutually closed and extruded, the embossing identification device further comprises an embossing identification driving mechanism, and the embossing identification driving mechanism drives the driving embossing identification wheel shaft to rotate so as to drive the driven embossing identification wheel shaft to rotate.

Furthermore, a notch is formed in the embossing identification pressing rod, an identification block is arranged in the notch, a mark code is arranged in the identification block, and the mark code is tightly pressed on the notch of the embossing identification pressing rod by the identification block.

Further, the easy-to-tear mouth forming device is equipped with the blade mount pad including locating the fourth holder in the frame on the fourth holder, and the blade mount pad is rotatable for the fourth holder, be equipped with the blade clamp plate on the blade mount pad, the blade clamp plate with it is equipped with the blade to press from both sides between the blade mount pad, the outer end of fourth holder is connected with the blade frid, is formed with the notch that supplies the blade to pass through on the blade frid, the easy-to-tear mouth forming device still includes blade holder actuating mechanism, and blade holder actuating mechanism drives the relative fourth holder relative rotation of blade mount pad.

Furthermore, an adjusting support plate is further connected to one side, facing the blade groove plate, of the fourth holder, a first material shearing adjusting sleeve and a second material shearing adjusting sleeve are arranged on the adjusting support plate, the positions of the adjusting support plates are adjustable when the first material shearing adjusting sleeve and the second material shearing adjusting sleeve are opposite, and the first material shearing adjusting sleeve is located at the lower end of the blade groove plate.

Furthermore, shearing mechanism is including locating the fifth retainer in the frame, and the cutter fixing base is installed to the both sides of fifth retainer, is equipped with first cutter axle on the cutter fixing base, installs first cutter on the first cutter axle, the outer end that the fifth retainer is located the cutter fixing base is equipped with fixed second cutter axle, installs the second cutter on the second cutter axle, the cutting edge of first cutter and second cutter sets up in opposite directions, shearing mechanism still includes cutter axle actuating mechanism, and cutter axle actuating mechanism drives first cutter axle and rotates for cutting edge on the first cutter is close to the cutting edge on the second cutter.

Furthermore, a cutter mounting plane is formed on each of the first cutter shaft and the second cutter shaft, and the cutter mounting planes incline downwards from the left side to the right side.

Furthermore, a support frame is arranged below the shearing device on the rack, a hopper rotating shaft is connected onto the support frame, a rotatable rotating column is sleeved on the hopper rotating shaft, a finished product feeding hopper is arranged on the rotating column, one end of the rotating column is connected with a locking pin, and a handle is connected onto the locking pin.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

the filling sealing machine can realize the purpose of full-automatic production of the liquid packaging bag by one piece of equipment, is of a vertical structure, is compact in arrangement of devices for realizing all packaging links, occupies a small space, is tight in connection between every two links, does not need to wait for the next procedure after the last procedure is finished, is equivalent to a working state without shutdown, and realizes high-efficiency production of the liquid packaging bag.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a filling and sealing machine;

fig. 2 is a front view of the filling and sealing machine after concealing portions of the components;

fig. 3 is a schematic perspective view of the filling and sealing machine after parts are hidden;

FIG. 4 is a first schematic view of the longitudinal sealing device;

FIG. 5 is a second schematic structural view of the longitudinal sealing device;

FIG. 6 is a first schematic structural view of a transverse sealing device;

FIG. 7 is a second schematic structural view of the transverse sealing device;

FIG. 8 is a first schematic structural view of an embossed mark device;

FIG. 9 is a second schematic structural view of an embossed marking device;

FIG. 10 is a schematic view of the structure of a driving embossed identification wheel axle or a driven embossed identification wheel axle;

FIG. 11 is a cross-sectional view taken along line A-A of FIG. 10;

FIG. 12 is a first schematic structural view of a forming device for easy-tear opening;

FIG. 13 is a second schematic structural view of the easy-tear-opening forming device;

FIG. 14 is a schematic side view of a tear-off forming device;

FIG. 15 is a top view of the shearing device;

FIG. 16 is a schematic perspective view of a shearing device;

FIG. 17 is a front view of the shearing device;

1-a rack, 2-a longitudinal sealing device, 21-a first retainer, 22-a first longitudinal sealing wheel fixing seat, 23-a second longitudinal sealing wheel fixing seat, 24-a driving longitudinal sealing wheel shaft, 25-a driven longitudinal sealing wheel shaft, 26-a first longitudinal sealing wheel, 27-a second longitudinal sealing wheel, 28-a heating rod, 29-a longitudinal sealing driving mechanism, 291-a longitudinal sealing driving motor, 292-a longitudinal sealing transmission shaft, 293-a longitudinal sealing driving bevel gear, 294-a longitudinal sealing driven bevel gear, 295-a longitudinal sealing driving gear, 296-a longitudinal sealing driven gear, 3-a transverse sealing device, 31-a second retainer, 32-a first transverse sealing wheel fixing seat, 33-a second transverse sealing wheel fixing seat, 34-a driving transverse sealing wheel shaft, 35-a driven transverse sealing wheel shaft and 36-a transverse sealing pressure rod, 38-filling mechanism, 39-horizontal sealing driving mechanism, 391-horizontal sealing driving motor, 392-horizontal sealing transmission shaft, 393-horizontal sealing driving bevel gear, 394-horizontal sealing driven bevel gear, 395-horizontal sealing driving gear, 396-horizontal sealing driven gear, 4-embossing identification device, 41-third retainer, 42-first embossing identification fixing seat, 43-second embossing identification fixing seat, 44-driving embossing identification wheel shaft, 45-driven embossing identification wheel shaft, 46-embossing identification pressure lever, 48-identification box, 481-notch, 482-identification block, 483-code, 49-embossing identification driving mechanism, 491-identification driving motor, 492-identification transmission shaft, 493-identification driving bevel gear, 494-identification driven bevel gear, 495-identification driving gear, 496-identification driven gear, 5-easy-tear-opening forming device, 51-fourth retainer, 52-blade mounting seat, 53-blade pressing plate, 54-blade, 55-blade groove plate, 56-adjusting supporting plate, 57-first shearing adjusting sleeve, 58-second shearing adjusting sleeve, 59-blade seat driving mechanism, 591-blade seat transmission shaft, 592-blade seat driving bevel gear, 593-blade seat driven bevel gear, 6-shearing device, 61-fifth retainer, 62-cutter fixing seat, 63-first cutter shaft, 64-first cutter, 65-second cutter shaft, 66-second cutter, 67-cutter shaft driving mechanism, 671-shearing driving motor and 672-shearing transmission shaft, 673-shearing driving worm, 674-shearing driven worm, 7-traction device, 8-finished product material delivery device, 81-support frame, 82-hopper rotating shaft, 83-rotating column, 84-finished product hopper, 85-locking pin, 86-handle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-3, the filling and sealing machine includes a frame 1, a traction device 7 is arranged on one side of the frame 1, the traction device 7 is used for drawing a film as a raw material, two sections of the film to be processed are drawn to a longitudinal sealing device 2 positioned on the left side of the traction device 7, the longitudinal sealing device 2 seals the left and right side edges of the two sections of the film material, the film material sealed on the two side edges is continuously drawn to a transverse sealing device 3, the transverse sealing device 3 seals the lower end side edge of the film material first, after the sealing is completed, a filling mechanism 38 injects liquid into the formed bag opening, the film material is continuously drawn at the same time, the transverse sealing device 3 seals the upper end side edge of the film material, the sealing on the four side edges of the film material is completed to form a complete packaging bag, the film material is continuously drawn downwards, and an embossing identification device 4 carries out embossing identification on the upper and lower, for example, date or other information is printed, after the embossing mark is finished, the film material is continuously pulled downwards and is pulled to the easy-to-tear opening forming device 5, the easy-to-tear opening forming is carried out on one side of the side edge of the upper end of the formed packaging bag, finally, the film material is pulled to the shearing device 6, and the formed packaging bag is cut off from the film material in sections or independently. It should be noted that, in the filling and sealing machine, the liquid packaging bags are formed on the continuous film material, so that the longitudinal sealing device 2, the transverse sealing device 3 and the embossing marking device 4 are arranged at equal intervals for keeping the size of each packaging bag consistent, and the forming continuity of the liquid packaging bags and the accuracy of the transverse sealing and the embossing marking can be ensured.

As shown in fig. 4-5, the longitudinal sealing device 2 includes a first holder 21 disposed on the frame 1, a first longitudinal sealing wheel holder 22 and a second longitudinal sealing wheel holder 23 are disposed on two sides of the first holder 21, a driving longitudinal sealing wheel axle 24 and a driven longitudinal sealing wheel axle 25 are respectively disposed on the first longitudinal sealing wheel holder 22 and the second longitudinal sealing wheel holder 23, a first longitudinal sealing wheel 26 and a second longitudinal sealing wheel 27 are respectively fixed on the driving longitudinal sealing wheel axle 24 and the driven longitudinal sealing wheel axle 25, the second longitudinal sealing wheel 27 is adjustable in position relative to the first longitudinal sealing wheel 26, the first longitudinal sealing wheel 26 and the first longitudinal sealing wheel 26 are pressed against each other, the second longitudinal sealing wheel 27 and the second longitudinal sealing wheel 27 are pressed against each other, the longitudinal sealing device 2 further includes a longitudinal sealing driving mechanism 29, the longitudinal sealing driving mechanism 29 drives the driving longitudinal sealing wheel axle 24 to rotate so as to drive the driven longitudinal sealing wheel axle 25 to rotate, and heating rods 28 are arranged in the driving longitudinal seal wheel shaft 24 and the driven longitudinal seal wheel shaft 25. When the film material is drawn to the longitudinal sealing device 2, the left side edge of the film material is sealed through a first longitudinal sealing wheel 26 on the driving longitudinal sealing wheel shaft 24 and the driven longitudinal sealing wheel shaft 25, the right side edge of the film material is sealed through a second longitudinal sealing wheel 27 on the driving longitudinal sealing wheel shaft 24 and the driven longitudinal sealing wheel shaft 25, heating rods 28 are arranged in the driving longitudinal sealing wheel shaft 24 and the driven longitudinal sealing wheel shaft 25, heat is transferred to the first longitudinal sealing wheel 26 and the second longitudinal sealing wheel 27, and the film material is softened through the heat, so that the sealing purpose is achieved. The second longitudinal seal wheel 27 is fixed on the driving longitudinal seal wheel shaft 24 and the driven longitudinal seal wheel shaft 25 in an adjustable manner, a fastening pin commonly used in the mechanical industry is adopted to penetrate through the second longitudinal seal wheel 27 to be fastened on a specific certain position of the driving longitudinal seal wheel shaft 24 and the driven longitudinal seal wheel shaft 25 in a specific adjustable manner, when the adjustment is carried out, the fastening pin is loosened, and the fastening pin is fastened after the position is adjusted.

Further, the vertical sealing driving mechanism 29 includes a vertical sealing driving motor 291 arranged on the frame 1, the vertical sealing driving motor 291 is connected with a vertical sealing driving bevel gear 293 through a vertical sealing transmission shaft 292, the vertical sealing driving bevel gear 293 is engaged with a vertical sealing driven bevel gear 294 sleeved on the driving vertical sealing wheel shaft 24, the vertical sealing driven bevel gear 294 drives the driving vertical sealing wheel shaft 24 to rotate, a vertical sealing driving gear 295 is sleeved on the driving vertical sealing wheel shaft 24, and the vertical sealing driving gear 295 is engaged with a vertical sealing driven gear 296 sleeved on the driven vertical sealing wheel shaft 25.

As shown in fig. 6-7, the transverse sealing device 3 includes a second holder 31 disposed on the frame 1, a first transverse sealing wheel fixing seat 32 and a second transverse sealing wheel fixing seat 33 are disposed on two sides of the second holder 31, a driving transverse sealing wheel shaft 34 and a driven transverse sealing wheel shaft 35 are respectively disposed on the first transverse sealing wheel fixing seat 32 and the second transverse sealing wheel fixing seat 33, transverse sealing pressure rods 36 arranged at equal intervals are disposed on the driving transverse sealing wheel shaft 34 and the driven transverse sealing wheel shaft 35, and when the driving transverse sealing wheel shaft 34 and the driven transverse sealing wheel shaft 35 rotate, the transverse sealing pressure rods 36 disposed on the driving transverse sealing wheel shaft 34 and the transverse sealing pressure rods 36 disposed on the driven transverse sealing wheel shaft 35 are close to each other and are squeezed, the transverse sealing device 3 further includes a transverse sealing driving mechanism 39 and a filling mechanism 38, the transverse sealing driving mechanism 39 drives the driving transverse sealing wheel shaft 34 to rotate so as to drive the driven transverse sealing wheel shaft 35 to rotate, the driving transverse seal wheel shaft 34 and the driven transverse seal wheel shaft 35 are both provided with heating rods 28, and the filling mechanism 38 extends into the second retainer 31 and is filled with liquid at intervals within a set time period. When the longitudinal sealing of the two side edges of the film material is finished, the film material is drawn downwards to the transverse sealing device 3, the sealing of the upper and lower side edges of the film material is realized through the mutual extrusion between the transverse sealing pressure rods 36 on the driving transverse sealing wheel shaft 34 and the driven transverse sealing wheel shaft 35, the number of the transverse sealing pressure rods 36 on the driving transverse sealing wheel shaft 34 and the driven transverse sealing wheel shaft 35 is generally consistent, and preferably 3, in a group between each other, when the driving traverse seal wheel shaft 34 and the driven traverse seal wheel shaft 35 rotate, the transverse sealing pressure rods 36 on the two wheel shafts are close to each other, the side edge of the lower side of the film material is sealed to form a bag opening of the packaging bag, and injecting liquid into the bag opening of the packaging bag before the rear group of transverse sealing pressure rods 36 approach each other and seal the upper side edge of the film material, and after the liquid injection is completed, sealing the upper side edge of the film material by the rear group of transverse sealing pressure rods 36. Wherein, the heating rods 28 are arranged in the driving transverse sealing wheel shaft 34 and the driven transverse sealing wheel shaft 35, heat is conducted to the transverse sealing pressure rod 36, and the film material is softened to realize better sealing effect. In addition, as shown in fig. 2 and 3, the filling element 38 extends through the longitudinal sealing device 2 to the upper end of the transverse sealing device 3, because the film material is continuous, and after the longitudinal sealing of the film material is completed, the filling element 38 cannot extend into the film material from other positions, so that the filling element 38 extends from the longitudinal sealing device 2 to the upper end of the transverse sealing device 3.

Further, the horizontal sealing driving mechanism 39 comprises a horizontal sealing driving motor 391 arranged on the rack 1, the horizontal sealing driving motor 391 is connected with a horizontal sealing driving bevel gear 393 through a horizontal sealing transmission shaft 392, the horizontal sealing driving bevel gear 393 is meshed with a horizontal sealing driven bevel gear 394 sleeved on the driving horizontal sealing wheel shaft 34, the horizontal sealing driven bevel gear 394 drives the driving horizontal sealing wheel shaft 34 to rotate, a horizontal sealing driving gear 395 is sleeved on the driving horizontal sealing wheel shaft 34, and the horizontal sealing driving gear 395 is meshed with a horizontal sealing driven gear 396 sleeved on the driven horizontal sealing wheel shaft 35.

As shown in fig. 8-9, the embossing identification device 4 includes a third holder 41 disposed on the rack 1, a first embossing identification fixing seat 42 and a second embossing identification fixing seat 43 are disposed on two sides of the third holder 41, a driving embossing identification wheel shaft 44 and a driven embossing identification wheel shaft 45 are respectively disposed on the first embossing identification fixing seat 42 and the second embossing identification fixing seat 43, embossing identification pressing rods 46 arranged at equal intervals are disposed on the driving embossing identification wheel shaft 44 and the driven embossing identification wheel shaft 45, and when the driving embossing identification wheel shaft 44 and the driven embossing identification wheel shaft 45 rotate, the embossing identification pressing rods 46 disposed on the driving embossing identification wheel shaft 44 and the embossing identification pressing rods 46 disposed on the driven embossing identification wheel shaft 45 are close to each other and are pressed, the embossing identification device 4 further includes an embossing identification driving mechanism 49, and the embossing identification driving mechanism 49 drives the driving embossing identification wheel shaft 44 to rotate so as to drive the driven embossing identification wheel shaft 44 to rotate, thereby driving the driven embossing identification pressing The thread mark hub 45 rotates. The general working principle of the embossing identification device 4 is the same as that of the transverse sealing device 4, and the difference is that the film material completes sealing of four sides of the transverse sealing device 3 and filling of liquid, and embossing identification is only performed on the upper side and the lower side of the liquid packaging bag which completes sealing at the embossing identification device 4, so that heating rods do not need to be arranged in the driving embossing identification wheel shaft 44 and the driven embossing identification wheel shaft 45, and cold sealing is only adopted.

Further, the embossing mark driving mechanism 49 includes a mark driving motor 491 disposed on the rack 1, the mark driving motor 491 is connected with a mark driving bevel gear 493 through a mark transmission shaft 492, the mark driving bevel gear 493 is engaged with a mark driven bevel gear 494 sleeved on the driving embossing mark wheel shaft 44, the mark driven bevel gear 494 drives the driving embossing mark wheel shaft 44 to rotate, a mark driving gear 495 is sleeved on the driving embossing mark wheel shaft 44, and the mark driving gear 495 is engaged with a mark driven gear 496 sleeved on the driven embossing mark wheel shaft 45.

Further, as shown in fig. 10-11, a notch 481 is arranged on the embossing mark pressing rod 46, a mark block 482 is arranged in the notch 481, a mark 483 is arranged in the mark 482, and the mark 483 is pressed on the notch 481 of the embossing mark pressing rod 46 by the mark 482. The code 483 can be replaced accordingly, depending on the information to be printed on the bag.

As shown in fig. 12 to 14, the easy-to-tear mouth forming device 5 includes a fourth holder 51 disposed on the frame 1, a blade mounting seat 52 is disposed on the fourth holder 51, the blade mounting seat 52 is rotatable relative to the fourth holder 51, a blade pressing plate 53 is disposed on the blade mounting seat 52, a blade 54 is sandwiched between the blade pressing plate 53 and the blade mounting seat 52, an outer end of the fourth holder 51 is connected to a blade groove plate 55, a notch for the blade 54 to pass through is formed on the blade groove plate 55, the easy-to-tear mouth forming device 5 further includes a knife seat driving mechanism 59, and the knife seat driving mechanism 59 drives the blade mounting seat 52 to rotate relative to the fourth holder 51. When the packaging bag with four side seals is moved to the easy-tearing-opening forming device 5, the packaging bag leans against the blade groove plate 55, the blade mounting seat 52 is driven by the blade seat driving mechanism 59 to rotate, the packaging bag is pressed on the blade groove plate 55 through the blade 54 on the blade mounting seat, finally the blade 54 cuts the left seal, the blade 54 completes the forming of the easy-tearing opening through the notch on the blade groove plate 55, the blade seat driving mechanism 59 drives the blade mounting seat 52 to reset, and the operation is repeatedly performed.

Further, the tool apron driving mechanism 59 includes a tool apron driving motor (not shown in the drawings of the related specification, but may also be linked with other driving mechanisms, and is a common means in the mechanical field, and therefore will not be described in detail), which is disposed on the machine frame 1, and the tool apron driving motor is connected to the tool apron driving bevel gear 592 through a tool apron transmission shaft 591, the tool apron driving bevel gear 592 is connected to the tool apron driven bevel gear 593, and the tool apron driven bevel gear 593 drives the blade mounting seat 52 to rotate.

Furthermore, an adjusting support plate 56 is further connected to one side of the fourth holder 51 facing the blade groove plate 55, a first material cutting adjusting sleeve 57 and a second material cutting adjusting sleeve 58 are arranged on the adjusting support plate 56, the positions of the first material cutting adjusting sleeve 57 and the second material cutting adjusting sleeve 58 relative to the adjusting support plate 56 are adjustable, and the first material cutting adjusting sleeve 57 is located at the lower end of the blade groove plate 55. Because the packaging bag is in a hanging state after being processed from the embossing marking device 4, when a lateral force is given, the packaging bag is easy to swing and swing randomly, the packaging bag can be limited through the first material shearing adjusting sleeve 57 and the second material shearing adjusting sleeve 58, the easy-to-tear opening can be conveniently cut, the subsequent shearing device 6 can cut, in addition, in order to adapt to the packaging bags with different transverse widths, the positions of the first material shearing adjusting sleeve 57 and the second material shearing adjusting sleeve 58 on the adjusting support plate 56 can be relatively adjustable, and the first material shearing adjusting sleeve 57 is matched with the forming of the easy-to-tear opening, and the position of the first material shearing adjusting sleeve 57 is approximately positioned at the lower end of the blade groove plate 55.

As shown in fig. 15-17, the shearing apparatus 6 includes a fifth holder 61 disposed on the frame 1, a cutter holder 62 is mounted on two sides of the fifth holder 61, a first cutter shaft 63 is disposed on the cutter holder 62, a first cutter 64 is mounted on the first cutter shaft 63, a second cutter shaft 65 is disposed at an outer end of the fifth holder 61 located on the cutter holder 62, a second cutter 66 is mounted on the second cutter shaft 65, and the cutting edges of the first cutter 64 and the second cutter 66 are disposed opposite to each other, the shearing apparatus 6 further includes a cutter shaft driving mechanism 67, and the cutter shaft driving mechanism 67 drives the first cutter shaft 63 to rotate, so that the cutting edge on the first cutter 64 is close to the cutting edge on the second cutter 66. The existing packaging bag shearing steps adopt a structure similar to stamping, namely, one cutter is fixed, and the other cutter is oppositely stamped under the action of the cylinder to complete shearing of the packaging bag. Through the scheme of the shearing device 6 shown in fig. 15-17, the principle similar to that of a pair of scissors is adopted for shearing the packaging bags, the second cutter 66 is also fixed, the first cutter 64 is driven by the first cutter shaft 63 to rotate relative to the second cutter 66, and the packaging sections are sheared through the shearing force at the moment when the cutting edges of the two cutters are connected. The shearing device 6 adopting the mode is more stable, the shearing opening is more smooth, and in addition, the cutting edge of the cutter is not easily damaged.

Further, the cutter shaft driving mechanism 67 includes a shear driving motor 671 disposed on the frame 1, the shear driving motor 671 is connected to a shear driving worm 673 through a shear driving shaft 672, and the shear driving worm 673 engages with a shear driven worm 674 connected to the first cutter shaft 63.

Further, the first cutter shaft 63 and the second cutter shaft 65 are both provided with a cutter mounting plane 651, the first cutter 64 and the second cutter 66 are both mounted on the respective cutter mounting plane 651, the cutter mounting plane 651 inclines downwards from the left side to the right side, and the packaging bag is still in a traction state while the first cutter 64 and the second cutter 66 shear the packaging bag, so that the cutter mounting plane 651 is arranged to incline from the left to the right to achieve the purpose that the packaging bag is firstly sheared from the left end and gradually sheared to the right along with the falling of the packaging bag in order to adapt to real-time traction of the packaging bag, and a flat shearing opening is obtained.

As shown in fig. 14, a support frame 81 is arranged below the shearing device 6 on the frame 1, a hopper rotating shaft 82 is connected to the support frame 81, a rotatable rotary column 83 is sleeved on the hopper rotating shaft 82, a finished product hopper 84 is arranged on the rotary column 83, one end of the rotary column 83 is connected with a locking pin 85, and a handle 86 is connected to the locking pin 85.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a liquid packaging bag filling capper, includes the frame, its characterized in that, and upper end one side of frame is equipped with draw gear, and one side of draw gear is equipped with vertical closing device, and vertical closing device's lower extreme is equipped with horizontal closing device, impressed watermark identification means in proper order, easily tears a forming device and shearing mechanism, equidistant distribution each other of vertical closing device, horizontal closing device and impressed watermark identification means is in the frame.

2. The liquid packaging bag filling and sealing machine according to claim 1, wherein the longitudinal sealing device comprises a first holder arranged on the machine frame, a first longitudinal sealing wheel fixing seat and a second longitudinal sealing wheel fixing seat are arranged on two sides of the first holder, the first longitudinal seal wheel fixing seat and the second longitudinal seal wheel fixing seat are respectively provided with a driving longitudinal seal wheel shaft and a driven longitudinal seal wheel shaft, a first longitudinal seal wheel and a second longitudinal seal wheel are fixed on the driving longitudinal seal wheel shaft and the driven longitudinal seal wheel shaft, the position of the second longitudinal seal wheel relative to the first longitudinal seal wheel is adjustable, and the first longitudinal sealing wheel are mutually pressed, the second longitudinal sealing wheel and the second longitudinal sealing wheel are mutually pressed, the longitudinal sealing device further comprises a longitudinal sealing driving mechanism, the longitudinal sealing driving mechanism drives the driving longitudinal sealing wheel shaft to rotate so as to drive the driven longitudinal sealing wheel shaft to rotate, and heating rods are arranged in the driving longitudinal sealing wheel shaft and the driven longitudinal sealing wheel shaft.

3. The liquid packaging bag filling and sealing machine according to claim 1, wherein the transverse sealing device comprises a second holder arranged on the frame, a first transverse sealing wheel fixing seat and a second transverse sealing wheel fixing seat are arranged on two sides of the second holder, a driving transverse sealing wheel shaft and a driven transverse sealing wheel shaft are respectively arranged on the first transverse sealing wheel fixing seat and the second transverse sealing wheel fixing seat, transverse sealing pressure rods arranged at equal intervals are respectively arranged on the driving transverse sealing wheel shaft and the driven transverse sealing wheel shaft, when the driving transverse sealing wheel shaft and the driven transverse sealing wheel shaft rotate, the transverse sealing pressure rods arranged on the driving transverse sealing wheel shaft and the transverse sealing pressure rods arranged on the driven transverse sealing wheel shaft are mutually closed and extruded, the transverse sealing device further comprises a transverse sealing driving mechanism and a filling mechanism, the transverse sealing driving mechanism drives the driving transverse sealing wheel shaft to rotate so as to drive the driven transverse sealing wheel shaft to rotate, and the driving transverse sealing wheel shaft and the driven transverse sealing wheel shaft are both provided with heating rods, and the filling mechanism extends into the second retainer and is filled with liquid at intervals within a set time period.

4. The liquid packaging bag filling and sealing machine according to claim 1, wherein the embossing identification device comprises a third holder arranged on the machine frame, a first embossing identification fixing seat and a second embossing identification fixing seat are arranged on two sides of the third holder, a driving embossing identification wheel shaft and a driven embossing identification wheel shaft are respectively arranged on the first embossing identification fixing seat and the second embossing identification fixing seat, embossing identification pressure rods arranged at equal intervals are respectively arranged on the driving embossing identification wheel shaft and the driven embossing identification wheel shaft, when the driving embossing identification wheel shaft and the driven embossing identification wheel shaft rotate, the embossing identification pressure rods arranged on the driving embossing identification wheel shaft and the embossing identification pressure rods arranged on the driven embossing identification wheel shaft are mutually closed and extruded, the embossing identification device further comprises an embossing identification driving mechanism, and the driving embossing identification driving mechanism drives the driving embossing identification wheel shaft to rotate so as to drive the driven embossing identification wheel to rotate The shaft rotates.

5. The liquid packaging bag filling and sealing machine according to claim 4, wherein the embossed marking pressure bar is provided with a notch, the notch is internally provided with a marking block, the marking block is internally provided with a mark code, and the mark code is pressed on the notch of the embossed marking pressure bar by the marking block.

6. The liquid packaging bag filling and sealing machine according to claim 1, wherein the easy-to-tear opening forming device comprises a fourth holder arranged on the frame, a blade mounting seat is arranged on the fourth holder, the blade mounting seat is rotatable relative to the fourth holder, a blade pressing plate is arranged on the blade mounting seat, a blade is clamped between the blade pressing plate and the blade mounting seat, a blade groove plate is connected to the outer end of the fourth holder, a notch for the blade to pass through is formed in the blade groove plate, and the easy-to-tear opening forming device further comprises a blade seat driving mechanism which drives the blade mounting seat to rotate relative to the fourth holder.

7. The liquid packaging bag filling and sealing machine according to claim 6, wherein an adjusting support plate is further connected to one side of the fourth holder facing the blade groove plate, a first material cutting adjusting sleeve and a second material cutting adjusting sleeve are arranged on the adjusting support plate, the positions of the adjusting support plate are adjustable when the first material cutting adjusting sleeve and the second material cutting adjusting sleeve are opposite, and the first material cutting adjusting sleeve is located at the lower end of the blade groove plate.

8. The liquid packaging bag filling and sealing machine according to claim 1, wherein the shearing device comprises a fifth holder arranged on the machine frame, cutter holders are mounted on both sides of the fifth holder, a first cutter shaft is arranged on each cutter holder, a first cutter is mounted on each first cutter shaft, a second cutter shaft fixed to the outer end of each fifth holder located on each cutter holder is mounted on each fifth holder, a second cutter is mounted on each second cutter shaft, the cutting edges of the first cutter and the second cutter are oppositely arranged, and the shearing device further comprises a cutter shaft driving mechanism which drives the first cutter shaft to rotate, so that the cutting edge on the first cutter is close to the cutting edge on the second cutter.

9. The liquid packaging bag filling and sealing machine according to claim 8, wherein the first cutter shaft and the second cutter shaft are each formed with a cutter mounting plane which is inclined downward from left to right.

10. The liquid packaging bag filling and sealing machine according to claim 1, wherein a support frame is arranged below the shearing device on the machine frame, a hopper rotating shaft is connected onto the support frame, a rotatable rotating column is sleeved on the hopper rotating shaft, a finished product feeding hopper is arranged on the rotating column, one end of the rotating column is connected with a locking pin, and a handle is connected onto the locking pin.